A Local-Realistic Model of Quantum Mechanics Based on a Discrete Spacetime

Foundations of Physics 48 (1):60-91 (2018)
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Abstract

This paper presents a realistic, stochastic, and local model that reproduces nonrelativistic quantum mechanics results without using its mathematical formulation. The proposed model only uses integer-valued quantities and operations on probabilities, in particular assuming a discrete spacetime under the form of a Euclidean lattice. Individual particle trajectories are described as random walks. Transition probabilities are simple functions of a few quantities that are either randomly associated to the particles during their preparation, or stored in the lattice nodes they visit during the walk. QM predictions are retrieved as probability distributions of similarly-prepared ensembles of particles. The scenarios considered to assess the model comprise of free particle, constant external force, harmonic oscillator, particle in a box, the Delta potential, particle on a ring, particle on a sphere and include quantization of energy levels and angular momentum, as well as momentum entanglement.

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10.1007/s10701-017-0129-9

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Quantum Physics and Reality.Bernard D’Espagnat - 2011 - Foundations of Physics 41 (11):1703-1716.

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